Leaked source code of windows server 2003
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/*******************************************************************************
*
* (C) COPYRIGHT MICROSOFT CORP., 1993-1994
*
* TITLE: VPOWERD.H
*
* VERSION: 1.0
*
* DATE: 01 Oct 1993
*
* AUTHOR: TCS
*
* Definitions for the Virtual Power Management Device.
*
********************************************************************************
*
* CHANGE LOG:
*
* DATE REV DESCRIPTION
* ----------- --- -------------------------------------------------------------
* 01 Oct 1993 TCS Original implementation.
*
*******************************************************************************/
#ifndef _INC_VPOWERD
#define _INC_VPOWERD
#ifndef Not_VxD
//
// Virtual Power Management Device service table.
//
/*XLATOFF*/
#define VPOWERD_Service Declare_Service
/*XLATON*/
/*MACROS*/
Begin_Service_Table(VPOWERD, VxD)
VPOWERD_Service (_VPOWERD_Get_Version, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_APM_BIOS_Version, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Power_Management_Level, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Set_Power_Management_Level, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Set_Device_Power_State, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Set_System_Power_State, VxD_LOCKED_CODE)
VPOWERD_Service (_VPOWERD_Restore_Power_On_Defaults, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Power_Status, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Power_State, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_OEM_APM_Function, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Register_Power_Handler, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Deregister_Power_Handler, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_W32_Get_System_Power_Status, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_W32_Set_System_Power_State, VxD_PAGEABLE_CODE)
// APM 1.2 services
VPOWERD_Service (_VPOWERD_Get_Capabilities, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Enable_Resume_On_Ring, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Disable_Resume_On_Ring, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Set_Resume_Timer, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Resume_Timer, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Disable_Resume_Timer, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Enable_Timer_Based_Requests, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Disable_Timer_Based_Requests, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_W32_Get_Power_Status, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Timer_Based_Requests_Status, VxD_PAGEABLE_CODE)
VPOWERD_Service (_VPOWERD_Get_Ring_Resume_Status, VxD_PAGEABLE_CODE)
End_Service_Table(VPOWERD, VxD)
/*ENDMACROS*/
#endif
/*XLATOFF*/
#ifdef IS_32
#define POWERFAR
#else
#define POWERFAR _far
#endif
/*XLATON*/
//
// Standard return type from VPOWERD services and handlers.
//
// Error codes 0x00000001 through 0x000000FF are reserved for APM firmware
// errors.
//
// Error codes above 0x80000000 are reserved for definition by VPOWERD
//
typedef DWORD POWERRET;
#define PR_SUCCESS 0x00000000
#define PR_PM_DISABLED 0x00000001
#define PR_RM_CONNECT_EXISTS 0x00000002
#define PR_INTERFACE_NOT_CONNECTED 0x00000003
#define PR_16BIT_PM_CONNECT_EXISTS 0x00000005
#define PR_16BIT_PM_UNSUPPORTED 0x00000006
#define PR_32BIT_PM_CONNECT_EXISTS 0x00000007
#define PR_32BIT_PM_UNSUPPORTED 0x00000008
#define PR_UNRECOGNIZED_DEVICE_ID 0x00000009
#define PR_PARAMETER_OUT_OF_RANGE 0x0000000A
#define PR_INTERFACE_NOT_ENGAGED 0x0000000B
// APM 1.2 error codes
#define PR_FUNC_NOT_SUPPORTED 0x0000000C
#define PR_RESUME_TIMER_DISABLED 0x0000000D
// end
#define PR_CANNOT_ENTER_STATE 0x00000060
#define PR_NO_PM_EVENTS_PENDING 0x00000080
#define PR_APM_NOT_PRESENT 0x00000086
#define PR_UNDEFINED_FUNCTION 0x000000FF
#define PR_DEFAULT 0x80000000
#define PR_FAILURE 0x80000001
#define PR_REQUEST_VETOED 0x80000002
#define PR_INVALID_POINTER 0x80000003
#define PR_INVALID_FLAG 0x80000004
#define PR_INVALID_PMLEVEL 0x80000005
#define PR_INVALID_DEVICE_ID 0x80000006
#define PR_INVALID_POWER_STATE 0x80000007
#define PR_INVALID_REQUEST_TYPE 0x80000008
#define PR_OUT_OF_MEMORY 0x80000009
#define PR_DUPLICATE_POWER_HANDLER 0x8000000A
#define PR_POWER_HANDLER_NOT_FOUND 0x8000000B
#define PR_INVALID_FUNCTION 0x8000000C
//
// Power device ID type and standard IDs as defined by the APM 1.1
// specification.
//
typedef DWORD POWER_DEVICE_ID;
#define PDI_APM_BIOS 0x0000
#define PDI_MANAGED_BY_APM_BIOS 0x0001
#define PDI_MANAGED_BY_APM_BIOS_OLD 0xFFFF
// APM 1.2
#define PDI_SPECIFIC_BATTERY 0x8000 // OR in the 1 based battery unit number
// end
//
// Power state type and standard power states as defined by the APM 1.1
// specification.
//
typedef DWORD POWER_STATE;
typedef POWER_STATE POWERFAR* LPPOWER_STATE;
#define PSTATE_APM_ENABLED 0x0000
#define PSTATE_STANDBY 0x0001
#define PSTATE_SUSPEND 0x0002
#define PSTATE_OFF 0x0003
// APM 1.2
#define PSTATE_HIBERNATE 0x0006
// end
//
// Valid power management levels.
//
#define PMLEVEL_ADVANCED 0
#define PMLEVEL_STANDARD 1
#define PMLEVEL_OFF 2
#define PMLEVEL_MAXIMUM PMLEVEL_OFF
//
// Valid request types.
//
#define REQTYPE_USER_INITIATED 0x00000000
#define REQTYPE_TIMER_INITIATED 0x00000001
#define REQTYPE_FORCED_REQUEST 0x00000002
#define REQTYPE_BIOS_CRITICAL_SUSPEND 0x00000003
#define REQTYPE_FROM_BIOS_FLAG 0x80000000 // ;Internal
// valid values for Status returned by Get_Timer_Based_Requests_Status and Get_Ring_Resume_Status
#define CAPABILITY_ENABLED 0x00000001
#define CAPABILITY_DISABLED 0x00000000
//
// Power status structures returned by _VPOWERD_Get_Power_Status and
// _VPOWERD_W32_Get_Power_Status.
//
#ifndef NOPOWERSTATUSDEFINES
#define AC_LINE_OFFLINE 0x00
#define AC_LINE_ONLINE 0x01
#define AC_LINE_BACKUP_POWER 0x02
#define AC_LINE_UNKNOWN 0xFF
#define BATTERY_STATUS_HIGH 0x00
#define BATTERY_STATUS_LOW 0x01
#define BATTERY_STATUS_CRITICAL 0x02
#define BATTERY_STATUS_CHARGING 0x03
#define BATTERY_STATUS_UNKNOWN 0xFF
#define BATTERY_FLAG_HIGH 0x01
#define BATTERY_FLAG_LOW 0x02
#define BATTERY_FLAG_CRITICAL 0x04
#define BATTERY_FLAG_CHARGING 0x08
// APM 1.2
#define BATTERY_NOT_PRESENT 0x10
// end
#define BATTERY_FLAG_NO_BATTERY 0x80
#define BATTERY_FLAG_UNKNOWN 0xFF
#define BATTERY_PERCENTAGE_UNKNOWN 0xFF
#define BATTERY_LIFE_MINUTES_MASK 0x8000
#define BATTERY_LIFE_UNKNOWN 0xFFFF
#define BATTERY_LIFE_W32_UNKNOWN 0xFFFFFFFF
#endif // NOPOWERSTATUSDEFINES
typedef struct _POWER_STATUS {
BYTE PS_AC_Line_Status;
BYTE PS_Battery_Status;
BYTE PS_Battery_Flag;
BYTE PS_Battery_Life_Percentage;
WORD PS_Battery_Life_Time;
} POWER_STATUS;
typedef POWER_STATUS POWERFAR* LPPOWER_STATUS;
typedef struct _POWERTIME { // st
WORD Year;
WORD Month;
WORD DayOfWeek;
WORD Day;
WORD Hour;
WORD Minute;
WORD Second;
WORD Milliseconds;
} POWERTIME;
typedef POWERTIME POWERFAR* LPPOWERTIME;
typedef struct APM_CAPABILITIES_S {
WORD Capabilities;
BYTE BatteryCount;
BYTE Reserved;
}APM_CAPABILITIES, *PAPM_CAPABILITIES;
/*
Capability flags
Bit 0 = 1 System can enter global standby state. Indicates BIOS will post standby and standby-resume events.
Bit 1 = 1 System can enter global suspend state. Indicates BIOS will post suspend and suspend-resume events.
Bit 2 = 1 Resume timer will wake up from standby.
Bit 3 = 1 Resume timer will wake up from suspend.
Bit 4 = 1 Resume on ring indicator (internal COM or modem) will wake up from standby.
Bit 5 = 1 Resume on ring indicator (internal COM or modem) will wake up from suspend.
Bit 6 = 1 PCMCIA Ring indicator will wake up from standby.
Bit 7 = 1 PCMCIA Ring indicator will wake up from suspend.
Other bits Reserved (must be set to 0)
*/
#define GLOBAL_STANDBY_SUPPORTED_BIT 0
#define GLOBAL_STANDBY_SUPPORTED (1 << GLOBAL_STANDBY_SUPPORTED_BIT)
#define GLOBAL_SUSPEND_SUPPORTED_BIT 1
#define GLOBAL_SUSPEND_SUPPORTED (1 << GLOBAL_SUSPEND_SUPPORTED_BIT)
#define WAKE_ON_TIMER_STANDBY_BIT 2
#define WAKE_ON_TIMER_STANDBY (1 << WAKE_ON_TIMER_STANDBY_BIT)
#define WAKE_ON_TIMER_SUSPEND_BIT 3
#define WAKE_ON_TIMER_SUSPEND (1 << WAKE_ON_TIMER_SUSPEND_BIT)
#define RING_RESUME_INTERNAL_STANDBY_BIT 4
#define RING_RESUME_INTERNAL_STANDBY (1 << RING_RESUME_INTERNAL_STANDBY_BIT)
#define RING_RESUME_INTERNAL_SUSPEND_BIT 5
#define RING_RESUME_INTERNAL_SUSPEND (1 << RING_RESUME_INTERNAL_SUSPEND_BIT)
#define RING_RESUME_PCMCIA_STANDBY_BIT 6
#define RING_RESUME_PCMCIA_STANDBY (1 << RING_RESUME_PCMCIA_STANDBY_BIT)
#define RING_RESUME_PCMCIA_SUSPEND_BIT 7
#define RING_RESUME_PCMCIA_SUSPEND (1 << RING_RESUME_PCMCIA_SUSPEND_BIT)
typedef struct _WIN32_SYSTEM_POWER_STATUS {
BYTE W32PS_AC_Line_Status;
BYTE W32PS_Battery_Flag;
BYTE W32PS_Battery_Life_Percent;
BYTE W32PS_Reserved1;
DWORD W32PS_Battery_Life_Time;
DWORD W32PS_Battery_Full_Life_Time;
} WIN32_SYSTEM_POWER_STATUS;
typedef WIN32_SYSTEM_POWER_STATUS POWERFAR* LPWIN32_SYSTEM_POWER_STATUS;
//
// OEM APM Register Structure used by _VPOWERD_OEM_APM_Function.
//
struct _OEM_APM_BYTE_REGS {
WORD OEMAPM_Reserved1[6];
BYTE OEMAPM_BL;
BYTE OEMAPM_BH;
WORD OEMAPM_Reserved2;
BYTE OEMAPM_DL;
BYTE OEMAPM_DH;
WORD OEMAPM_Reserved3;
BYTE OEMAPM_CL;
BYTE OEMAPM_CH;
WORD OEMAPM_Reserved4;
BYTE OEMAPM_AL;
BYTE OEMAPM_AH;
WORD OEMAPM_Reserved5;
BYTE OEMAPM_Flags;
BYTE OEMAPM_Reserved6[3];
};
struct _OEM_APM_WORD_REGS {
WORD OEMAPM_DI;
WORD OEMAPM_Reserved7;
WORD OEMAPM_SI;
WORD OEMAPM_Reserved8;
WORD OEMAPM_BP;
WORD OEMAPM_Reserved9;
WORD OEMAPM_BX;
WORD OEMAPM_Reserved10;
WORD OEMAPM_DX;
WORD OEMAPM_Reserved11;
WORD OEMAPM_CX;
WORD OEMAPM_Reserved12;
WORD OEMAPM_AX;
WORD OEMAPM_Reserved13[3];
};
struct _OEM_APM_DWORD_REGS {
DWORD OEMAPM_EDI;
DWORD OEMAPM_ESI;
DWORD OEMAPM_EBP;
DWORD OEMAPM_EBX;
DWORD OEMAPM_EDX;
DWORD OEMAPM_ECX;
DWORD OEMAPM_EAX;
DWORD OEMAPM_Reserved14;
};
typedef union _OEM_APM_REGS {
struct _OEM_APM_BYTE_REGS ByteRegs;
struct _OEM_APM_WORD_REGS WordRegs;
struct _OEM_APM_DWORD_REGS DwordRegs;
} OEM_APM_REGS;
typedef OEM_APM_REGS POWERFAR* LPOEM_APM_REGS;
//
// Possible power function codes that are sent to POWER_HANDLER callbacks.
//
typedef DWORD POWERFUNC;
#define PF_SUSPEND_PHASE1 0x00000000
#define PF_SUSPEND_PHASE2 0x00000001
#define PF_SUSPEND_INTS_OFF 0x00000002
#define PF_RESUME_INTS_OFF 0x00000003
#define PF_RESUME_PHASE2 0x00000004
#define PF_RESUME_PHASE1 0x00000005
#define PF_BATTERY_LOW 0x00000006
#define PF_POWER_STATUS_CHANGE 0x00000007
#define PF_UPDATE_TIME 0x00000008
#define PF_CAPABILITIES_CHANGE 0x00000009
#define PF_APMOEMEVENT_FIRST 0x00000200
#define PF_APMOEMEVENT_LAST 0x000002FF
//
//
//
#define PFG_UI_ALLOWED 0x00000001
#define PFG_CANNOT_FAIL 0x00000002
#define PFG_REQUEST_VETOED 0x00000004
#define PFG_REVERSE 0x00000008
#define PFG_STANDBY 0x00000010
#define PFG_CRITICAL 0x00000020
#ifdef SUPPORT_HIBERNATE
#define PFG_HIBERNATE 0x00000040 // NEW for APM 1.2
#endif
#define PFG_KEPT_POWER 0x00000080
//
// Standard POWER_HANDLER priority levels.
//
#define PHPL_PBT_BROADCAST 0x40000000
#define PHPL_UNKNOWN 0x80000000
#define PHPL_CONFIGMG 0xC0000000
#define PHPL_TIMER 0xE0000000
//
//
//
typedef POWERRET (*POWER_HANDLER)(POWERFUNC, DWORD);
//
// VPOWERD BroadcastSystemMessage API parameter blocks.
//
typedef struct _VPOWERD_BSMAPI_HEADER {
DWORD VBAPIH_Packet_Size;
WORD VBAPIH_Function;
DWORD VBAPIH_Return_Code;
} VPOWERD_BSMAPI_HEADER;
#define VBAPIF_W32_SET_SYSTEM_STATE 0x000D
typedef struct _VPOWERD_BSMAPI_W32_SET_SYSTEM_STATE {
struct _VPOWERD_BSMAPI_HEADER VBWSSS_VBAPIH;
DWORD VBWSSS_Force_Flag;
} VPOWERD_BSMAPI_W32_SET_SYSTEM_STATE;
//
// Virtual Power Management Device service prototypes.
//
/*XLATOFF*/
BOOL
POWERFAR CDECL
VPOWERD_Get_Entry_Point(
VOID
);
DWORD
POWERFAR CDECL
_VPOWERD_Get_Version(
VOID
);
DWORD
POWERFAR CDECL
_VPOWERD_Get_APM_BIOS_Version(
VOID
);
DWORD
POWERFAR CDECL
_VPOWERD_Get_Power_Management_Level(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Set_Power_Management_Level(
DWORD Power_Management_Level
);
POWERRET
POWERFAR CDECL
_VPOWERD_Set_Device_Power_State(
POWER_DEVICE_ID Power_Device_ID,
POWER_STATE Power_State
);
POWERRET
POWERFAR CDECL
_VPOWERD_Set_System_Power_State(
POWER_STATE Power_State,
DWORD Request_Type
);
POWERRET
POWERFAR CDECL
_VPOWERD_Restore_Power_On_Defaults(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Get_Power_Status(
POWER_DEVICE_ID Power_Device_ID,
LPPOWER_STATUS lpPower_Status
);
POWERRET
POWERFAR CDECL
_VPOWERD_Get_Power_State(
POWER_DEVICE_ID Power_Device_ID,
LPPOWER_STATE lpPower_State
);
POWERRET
POWERFAR CDECL
_VPOWERD_OEM_APM_Function(
LPOEM_APM_REGS lpOEM_APM_Regs
);
POWERRET
POWERFAR CDECL
_VPOWERD_Register_Power_Handler(
POWER_HANDLER Power_Handler,
DWORD Priority
);
POWERRET
POWERFAR CDECL
_VPOWERD_Deregister_Power_Handler(
POWER_HANDLER Power_Handler
);
BOOL
POWERFAR CDECL
_VPOWERD_W32_Get_System_Power_Status(
LPWIN32_SYSTEM_POWER_STATUS lpWin32_System_Power_Status
);
DWORD
POWERFAR CDECL
_VPOWERD_W32_Set_System_Power_State(
BOOL Suspend_Flag,
BOOL Force_Flag
);
POWERRET
POWERFAR CDECL
_VPOWERD_Get_Capabilities(
PAPM_CAPABILITIES pAPMCaps
);
POWERRET
POWERFAR CDECL
_VPOWERD_Enable_Resume_On_Ring(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Disable_Resume_On_Ring(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Set_Resume_Timer(
LPPOWERTIME pPowerTime
);
POWERRET
POWERFAR CDECL
_VPOWERD_Get_Resume_Timer(
LPPOWERTIME pPowerTime
);
POWERRET
POWERFAR CDECL
_VPOWERD_Disable_Resume_Timer(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Enable_Timer_Based_Requests(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_Disable_Timer_Based_Requests(
VOID
);
POWERRET
POWERFAR CDECL
_VPOWERD_W32_Get_Power_Status(
POWER_DEVICE_ID Power_Device_ID,
LPWIN32_SYSTEM_POWER_STATUS lpWin32_System_Power_Status
);
/*XLATON*/
#endif // _INC_VPOWERD